JP4079347B2 - Power generator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power generation device that generates power using a plurality of small wind power generators, and more particularly to a power generation device effective for installation in a place where people gather.
[0002]
[Prior art]
In recent years, wind power generators have attracted attention as a means of power generation that replaces fossil fuels, and various types of small wind power generators (so-called micro wind power generation systems) have been developed.
A large number of large wind power generators are generally installed in large areas such as grasslands, but small wind power generators have good ventilation such as parks, open spaces, and rooftops of buildings. Even if it is installed in a place, it does not get in the way so much, and it has been studied to install it in various places and use it for low-power generation.
[0003]
[Problems to be solved by the invention]
By the way, since the small wind generators as described above generate small electric power, it is effective to install and use a plurality of small wind generators. It is desirable to collect and increase power generation efficiency.
In addition, when used in places where people gather, such as parks and open spaces, a more effective system can be configured by combining with other functions.
[0004]
SUMMARY OF THE INVENTION An object of the present invention is to provide a power generator that can effectively use wind energy and also has a function of performing various displays.
[0005]
[Means for Solving the Problems]
Since the generator according to the present invention for achieving the above object, a wind collecting passage, a plurality of small wind power generator that generates electricity by receiving a wind collecting winds by the collector air passage is disposed in the current wind passage The air collecting passage includes a first air collecting passage portion in which the air passage gradually decreases from the front to the rear along the forward direction of the air flow direction, and along the direction opposite to the air circulation direction. Connecting the second air collecting passage portion where the air passage gradually decreases from the front to the rear, and the rear end portion of the first air collecting passage portion and the rear end portion of the second air collecting passage portion. And the air collecting passage has a symmetric structure in the forward direction and the reverse direction along the flow direction of the wind, and the plurality of small wind power generators have the first structure. A plurality of first small winds arranged side by side in a matrix in the forward direction of the wind flow direction at the rear end of the wind collecting passage That it contains a generator, and the second wind collecting passage portion second small wind power generator on the rear end portion of the plurality which are arranged in a matrix toward the reverse direction in front of the direction of flow of the wind It is characterized by.
[0006]
In the power generation apparatus of the present invention, provided by arranging a plurality of small wind generators in wind collecting passage in a matrix, the power generation by wind collecting the wind inflows to wind collecting passages plurality of small wind generators Do.
Thereby , it is possible to perform power generation with good energy efficiency .
[0007]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a windproof device with a power generation function according to the present invention will be described below with reference to the drawings.
The embodiments described below are preferred specific examples of the present invention, and various technically preferable limitations are given. However, the scope of the present invention is not limited to the following description. Unless otherwise specified, the present invention is not limited to these embodiments.
1 and 2 are views showing a power generator according to an embodiment of the present invention. FIG. 1 is a schematic front view, and FIG. 2 is a side sectional view.
The power generation apparatus 10 has a plurality of small wind power generators 60 and 70 arranged in a wind collecting passage 50 constituted by a plurality of inclined plates 20 and 30, and the flow of wind indicated by arrows A and B in FIG. It has a structure having a symmetric structure in the forward direction (arrow A) and the reverse direction (arrow B) along the direction, so that power can be generated effectively against bidirectional wind.
[0008]
Hereinafter, a specific structure of the power generation apparatus 10 will be sequentially described.
First, with respect to the forward direction (arrow A), four first inclined plates arranged on the upper, lower, left and right sides inclined in a direction in which the wind passage gradually decreases from the front to the rear along the forward direction of the wind flow direction. 20, the first air collecting passage section 50 </ b> A is formed.
As for the reverse direction (arrow B), the four second inclined plates arranged on the top, bottom, left and right are inclined in the direction in which the wind passage gradually decreases from the front to the back along the reverse direction of the wind flow direction. 30, the second air collecting passage portion 50 </ b> B is formed.
The four parallel plates 40 arranged on the top, bottom, left and right connecting the forward rear end of the first air collection passage 50A and the reverse rear end of the second air collection passage 50B are used to collect the air. A connection passage portion 50C that connects the passage portions 50A and 50B is formed.
[0009]
In addition, a plurality of first small wind power generators 60 are arranged in the forward direction rear end portion of the first wind collecting passage portion 50A toward the forward direction in the wind flow direction.
Further, a plurality of second small wind power generators 70 disposed in the reverse direction rear end portion of the second air collecting passage portion 50B are disposed toward the front in the reverse direction of the wind flow direction.
As shown in FIG. 1, these small wind power generators 60 and 70 are arranged in parallel (arranged in substantially the same plane) in a vertical and horizontal matrix form (3 × 3 in the illustrated example). Each of the small wind power generators 60 and 70 is supported by a support member (not shown) disposed in the air collecting passage 50 without hindering the flow of the wind.
The first small wind power generator 60 receives the wind in the forward direction (arrow A) and the propeller rotates to rotate the internal rotor, thereby generating an electromotive force in the coil of the stator.
Further, the second small wind power generator 70 generates electromotive force in the coil of the stator by receiving the wind in the reverse direction (arrow B) and rotating the propeller and rotating the internal rotor.
[0010]
A part of each of the inclined plates 20 and 30 constituting the air collecting passage 50 constitutes an electric bulletin board, and the other part is constituted as a solar cell.
Although various forms of the electric bulletin board and the solar cell can be adopted, for example, among the inclined plates 20 and 30, the inclined plates 20 and 30 respectively disposed on the upper side portions are used as the electric bulletin board, and other lower sides and Use various modes in which the inclined plates 20 and 30 on both the left and right sides are solar cells, or the central part of each of the upper and lower inclined plates 20 and 30 is an electric bulletin board and the other peripheral regions are solar cells. Is possible.
As a configuration of the electronic bulletin board, for example, a segment type display device or a bit map type display device using a light emitting element such as a light emitting diode (LD) or electroluminescence can be adopted.
As described above, since the forms of the electric bulletin board and the solar cell are various, in FIG. 1 and FIG. 2, the inclined board 20 and 30 constitute the electric bulletin board and the solar cell, and display examples and the like are omitted. .
[0011]
As shown in FIG. 2, a power storage device 80 and an electric bulletin board control device 90 are provided on the lower side of the air collecting passage 50 in the power generation device 10.
The power storage device 80 stores the power obtained by the above-described small wind power generators 60 and 70 and the power obtained by the solar cell using the inclined plates 20 and 30. The power storage device 80 can be replaced by a fuel cell.
The electric bulletin board controller 90 controls the electric bulletin board by the above-described inclined plates 20 and 30 via an inverter or the like, and displays display contents prepared in advance on the electric bulletin board.
[0012]
In the power generation apparatus 10 configured as described above, the wind in the forward direction (arrow A) is collected by the first small wind power generator 60 by the first air collecting passage portion 50A, and the first small wind power generator is collected. 60 is converted into electric power. Further, the wind in the reverse direction (arrow B) is collected by the second small wind power generator 70 by the second air collecting passage portion 50B and converted into electric power by the second small wind power generator 70.
Such power generation by the small wind power generators 60 and 70 is executed when the wind blows regardless of the time zone of the day.
Further, during sunshine, etc., power generation according to the amount of received light is performed by the solar cells by the inclined plates 20 and 30. The electric power obtained by such small wind power generators 60 and 70 and the solar battery is appropriately stored in the power storage device 80.
[0013]
The display of the electronic bulletin board by the electronic bulletin board control device 90 is performed, for example, in a predetermined time zone.
For example, if the display is performed in a predetermined time zone at night, the display can be performed with relatively small power consumption, and the display can be performed for a long time within the range of the power stored in the power storage device 80. Therefore, it is possible to configure an energy self-contained system without introducing electric power from the outside.
Therefore, the electric power generating apparatus 10 of this example can provide the electrical signboard which does not require power consumption like the past by using for the signboard etc. of a restaurant, for example. Moreover, such a power generator 10 can be widely applied to other uses.
[0014]
The specific configuration of the power generator is not limited to the above-described example, and various modifications can be made.
For example, the arrangement of 60,70 small type wind power generator is not limited to the matrix arrangement obtained by arranging in the vertical and horizontal direction as described above, may be a matrix arrangement obtained by arranging, for example, in an oblique direction. Furthermore, for the configuration of the wind collecting passage, it may not be symmetrical structure vertically and horizontally, a vertical only or an inclined plate, the right and left only an inclined plate, others may be configured as a parallel plate . Moreover, it does not necessarily need to be the structure provided with the electric bulletin board and the solar cell.
[0015]
【The invention's effect】
Above, according to the power generating device of the present invention, as described, provided by arranging a plurality of the small wind power generator in a matrix in a wind collecting passage, wind the plurality of small wind power generator which inflows into the collecting air passage It intends line power generation in their small wind power generator and wind collecting to.
Thus, Ru effect is obtained that can be determined promptly by using an good power generation of energy efficiency.
[Brief description of the drawings]
FIG. 1 is a schematic front view showing a power generator according to an embodiment of the present invention.
FIG. 2 is a side sectional view showing the power generator shown in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Power generation device 20, 30 ... Inclined plate, 40 ... Parallel plate, 50 ... Air collection passage, 50A ... First air collection passage portion, 50B ... Second air collection passage portion, 50C ...... Connection passage section, 60, 70... Small wind power generator, 80... Power storage device, 90.

Claims (5)

It has a collecting air passage, and a plurality of small wind power generator that generates electricity by receiving a wind collecting winds by the collector air passage is disposed in the current air passage,
The air collecting passage includes a first air collecting passage portion in which the air passage gradually decreases from the front to the rear along the forward direction of the air flow direction, and the front to the rear along the reverse direction of the air flow direction. And a connecting passage portion connecting the rear end portion of the first air collection passage portion and the rear end portion of the second air collection passage portion. And
The air collecting passage has a symmetric structure in the forward direction and the reverse direction along the flow direction of the wind,
The plurality of small wind power generators include a plurality of first small wind power generators arranged in a matrix at a rear end portion of the first air collecting passage portion in a forward direction in a wind flow direction. A plurality of second small wind power generators arranged in a matrix at the rear end portion of the second air collecting passage portion in the forward direction opposite to the wind flow direction.
A power generator characterized by that. 2. The power generator according to claim 1, wherein each of the first air collecting passage portion and the second air collecting passage portion is constituted by a plurality of inclined plates inclined with respect to a wind flow direction. . The power generator according to claim 2, wherein at least a part of the plurality of inclined plates is configured as an electric bulletin board. The power generator according to claim 2, wherein at least a part of the plurality of inclined plates is configured as a solar cell. The power storage device that stores the power generated by the plurality of small wind power generators, and the bulletin board control device that controls the lighting of the electric bulletin board using the power stored by the power storage device. 3. The power generator according to 3 .

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